Antibodies and method of making antibodies, either monoclonal or polyclonal wherein said antibodies have dual or multi-specific binding capacity to more than one type of antigenic epitope. The antibodies have simultaneous or independent recognition subsites to each of the epitopes. Antigenic epitopes include lipids, peptides, proteins, amino acid sequences, sugars and carbohydrates. Monoclonal antibodies and a method of making monoclonal antibodies of the invention include monoclonal antibodies that are broadly neutralizing to HIV-1 or other envelop viruses wherein the monoclonal antibody has subsites that simultaneously recognize protein and lipid epitopes from the virus.

The present invention provides methods for producing HIV-1 nanoparticle vaccines with enhanced immunogenicity. The methods entail (1) enzymatic digestion of glycan chain on the surface of a self-assembling nanoparticle vaccine displaying an HIV-1 Env derived trimer immunogen, or (2) expression of an HIV-1 nanoparticle construct in an expression system lacking normal glycosylation function for human proteins. Also provided in the invention are HIV-1 nanoparticle vaccines produced with the described methods. The invention further provides methods of using the HIV-1 nanoparticle vaccine compositions described herein in various therapeutic applications, e.g., for preventing or treating viral infections.

The present invention provides methods for producing HIV-1 nanoparticle vaccines with enhanced immunogenicity. The methods entail (1) enzymatic digestion of glycan chain on the surface of a self-assembling nanoparticle vaccine displaying an HIV-1 Env derived trimer immunogen, or (2) expression of an HIV-1 nanoparticle construct in an expression system lacking normal glycosylation function for human proteins. Also provided in the invention are HIV-1 nanoparticle vaccines produced with the described methods. The invention further provides methods of using the HIV-1 nanoparticle vaccine compositions described herein in various therapeutic applications, e.g., for preventing or treating viral infections.

The present invention provides methods for producing scaffolded (e.g., nanoparticle presented) or non-scaffolded vaccines that are based on viral immunogenic proteins with a glycan shielded (e.g., HIV-1 Env). The vaccines thus generated demonstrate enhanced immunogenicity and responder frequency. The methods entail (1) enzymatic digestion of glycan chain on the surface of a viral trimer protein immunogen or a self-assembling nanoparticle vaccine displaying the viral immunogen (e.g., an HIV-1 UFO trimer), or (2) expression of a construct encoding the vaccine in an expression system lacking normal glycosylation function for human proteins. Also provided in the invention are vaccine compositions produced with the described methods. The invention further provides methods of using the vaccine compositions described herein (e.g., scaffolded or non-scaffolded HIV-1 vaccines) in various therapeutic applications, e.g., for preventing or treating viral infections.

The present invention provides methods for producing scaffolded (e.g., nanoparticle presented) or non-scaffolded vaccines that are based on viral immunogenic proteins with a glycan shielded (e.g., HIV-1 Env). The vaccines thus generated demonstrate enhanced immunogenicity and responder frequency. The methods entail (1) enzymatic digestion of glycan chain on the surface of a viral trimer protein immunogen or a self-assembling nanoparticle vaccine displaying the viral immunogen (e.g., an HIV-1 UFO trimer), or (2) expression of a construct encoding the vaccine in an expression system lacking normal glycosylation function for human proteins. Also provided in the invention are vaccine compositions produced with the described methods. The invention further provides methods of using the vaccine compositions described herein (e.g., scaffolded or non-scaffolded HIV-1 vaccines) in various therapeutic applications, e.g., for preventing or treating viral infections.

Methods for generating immune responses using adenovirus vectors that allow multiple vaccinations with the same adenovirus vector and vaccinations in individuals with preexisting immunity to adenovirus are provided.

Methods for generating immune responses using adenovirus vectors that allow multiple vaccinations with the same adenovirus vector and vaccinations in individuals with preexisting immunity to adenovirus are provided.

Provided herein are recombinant polynucleotides including a first nucleic acid sequence encoding an antigen, and a second nucleic acid sequence encoding an enzyme of an amino acid catabolic pathway. The provided recombinant polynucleotides are particularly useful for inducing long-lived immune responses having improved memory characteristics. Also provided are pharmaceutical compositions, viral particles, and host cells including the disclosed recombinant polynucleotides, and methods for using the disclosed materials.

Provided herein are recombinant polynucleotides including a first nucleic acid sequence encoding an antigen, and a second nucleic acid sequence encoding an enzyme of an amino acid catabolic pathway. The provided recombinant polynucleotides are particularly useful for inducing long-lived immune responses having improved memory characteristics. Also provided are pharmaceutical compositions, viral particles, and host cells including the disclosed recombinant polynucleotides, and methods for using the disclosed materials.

The disclosure relates to nucleic acids mosaic clade M HIV-1 Env polypeptides and to compositions and vectors comprising same. The nucleic acids are suitable for use in inducing an immune response to HIV-1 in a human.